The combustion behavior of Dried Distiller’s grains with Solubles (DDGS) and willow chars, which were obtained from these fuels gasification on a 100 kWthsteam-O2blown circulating fluidized bed (CFB) gasifier, and pure charcoal was studied using thermogravimetric analysis (TGA) under both isothermal and non-isothermal conditions. The effects of combustion temperature (400–600, 750–900 °C), O2 concentration (7.5, 10, 15, 21vol. %), and heating rate (10, 30, 50 °C min) on the char-O2reaction rate were studied. A 3D TG furnace model was built using COMSOL Multiphysics Software to understand better temperature and velocity profiles within the furnace. Char combustion rate increased with increasing O2concentrations or temperatures. Within the temperature range of 750–900 °C, it was impossible to determine combustion kinetic parameters of DDGS and willow chars, but it was well possible for charcoal under 15 vol.% O2(Ea ca.120 kJ molusing the SCM). Within the temperature range of 450–600 °C, the Ea value obtained from DDGS char combustion was around 60 kJ molusing the VRM, while it appeared to be impossible to determine properly combustion kinetic parameters of willow char probably due to its high reactivity. With increasing heating rate, the combustion of three chars occurred in a wider temperature range, and higher Ea values were obtained at lower conversion rates. Results predicted from the 3D TG furnace model agreed fairly well with the experimental ones. The velocity profile within the furnace was affected by the furnace temperature and vice v ersa, and they both were affected by the heat produced from char combustion as well. Highlights ► Combustion behavior of CFB chars and charcoal was studied using TGA and COMSOL modeling. ► Willow char appeared too reactive to determine its combustion kinetic constants within 400–500 °C. ► An Ea value of ca. 60 kJ/mol obtained from DDGS char combustion probably due to the effect of ash. ► Ea values obtained from charcoal combustion were accordant with those reported in the literature. ► The gas velocity and temperature profiles predicted by COMSOL model agreed well with experimental ones.
X. Meng, W. de Jong, F.S. Badri, P. Benito, F. Basile, A.H.M. Verkooijen (2012). Combustion study of partially gasified willow and DDGS chars using TG analysis and COMSOL modeling. BIOMASS & BIOENERGY, 39, 356-369 [10.1016/j.biombioe.2012.01.032].
Combustion study of partially gasified willow and DDGS chars using TG analysis and COMSOL modeling
BENITO MARTIN, PATRICIA;BASILE, FRANCESCO;
2012
Abstract
The combustion behavior of Dried Distiller’s grains with Solubles (DDGS) and willow chars, which were obtained from these fuels gasification on a 100 kWthsteam-O2blown circulating fluidized bed (CFB) gasifier, and pure charcoal was studied using thermogravimetric analysis (TGA) under both isothermal and non-isothermal conditions. The effects of combustion temperature (400–600, 750–900 °C), O2 concentration (7.5, 10, 15, 21vol. %), and heating rate (10, 30, 50 °C min) on the char-O2reaction rate were studied. A 3D TG furnace model was built using COMSOL Multiphysics Software to understand better temperature and velocity profiles within the furnace. Char combustion rate increased with increasing O2concentrations or temperatures. Within the temperature range of 750–900 °C, it was impossible to determine combustion kinetic parameters of DDGS and willow chars, but it was well possible for charcoal under 15 vol.% O2(Ea ca.120 kJ molusing the SCM). Within the temperature range of 450–600 °C, the Ea value obtained from DDGS char combustion was around 60 kJ molusing the VRM, while it appeared to be impossible to determine properly combustion kinetic parameters of willow char probably due to its high reactivity. With increasing heating rate, the combustion of three chars occurred in a wider temperature range, and higher Ea values were obtained at lower conversion rates. Results predicted from the 3D TG furnace model agreed fairly well with the experimental ones. The velocity profile within the furnace was affected by the furnace temperature and vice v ersa, and they both were affected by the heat produced from char combustion as well. Highlights ► Combustion behavior of CFB chars and charcoal was studied using TGA and COMSOL modeling. ► Willow char appeared too reactive to determine its combustion kinetic constants within 400–500 °C. ► An Ea value of ca. 60 kJ/mol obtained from DDGS char combustion probably due to the effect of ash. ► Ea values obtained from charcoal combustion were accordant with those reported in the literature. ► The gas velocity and temperature profiles predicted by COMSOL model agreed well with experimental ones.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
